#!/usr/bin/env python3 # Copyright 2014 The Crashpad Authors # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import argparse import os import pipes import posixpath import re import subprocess import sys import tempfile import uuid CRASHPAD_DIR = os.path.join(os.path.dirname(os.path.abspath(__file__)), os.pardir) IS_WINDOWS_HOST = sys.platform.startswith('win') def _FindGNFromBinaryDir(binary_dir): """Attempts to determine the path to a GN binary used to generate the build files in the given binary_dir. This is necessary because `gn` might not be in the path or might be in a non-standard location, particularly on build machines.""" build_ninja = os.path.join(binary_dir, 'build.ninja') if os.path.isfile(build_ninja): with open(build_ninja, 'r') as f: # Look for the always-generated regeneration rule of the form: # # rule gn # command = ... arguments ... # # to extract the gn binary's full path. found_rule_gn = False for line in f: if line.strip() == 'rule gn': found_rule_gn = True continue if found_rule_gn: if len(line) == 0 or line[0] != ' ': return None if line.startswith(' command = '): gn_command_line_parts = line.strip().split(' ') if len(gn_command_line_parts) > 2: return os.path.join(binary_dir, gn_command_line_parts[2]) return None def _BinaryDirTargetOS(binary_dir): """Returns the apparent target OS of binary_dir, or None if none appear to be explicitly specified.""" gn_path = _FindGNFromBinaryDir(binary_dir) if gn_path: # Look for a GN “target_os”. popen = subprocess.Popen([ gn_path, '--root=' + CRASHPAD_DIR, 'args', binary_dir, '--list=target_os', '--short' ], shell=IS_WINDOWS_HOST, stdout=subprocess.PIPE, stderr=open(os.devnull), text=True) value = popen.communicate()[0] if popen.returncode == 0: match = re.match('target_os = "(.*)"$', value) if match: return match.group(1) # For GYP with Ninja, look for the appearance of “linux-android” in the path # to ar. This path is configured by gyp_crashpad_android.py. build_ninja_path = os.path.join(binary_dir, 'build.ninja') if os.path.exists(build_ninja_path): with open(build_ninja_path) as build_ninja_file: build_ninja_content = build_ninja_file.read() match = re.search('-linux-android(eabi)?-ar$', build_ninja_content, re.MULTILINE) if match: return 'android' return None def _EnableVTProcessingOnWindowsConsole(): """Enables virtual terminal processing for ANSI/VT100-style escape sequences on a Windows console attached to standard output. Returns True on success. Returns False if standard output is not a console or if virtual terminal processing is not supported. The feature was introduced in Windows 10. """ import pywintypes import win32console import winerror stdout_console = win32console.GetStdHandle(win32console.STD_OUTPUT_HANDLE) try: console_mode = stdout_console.GetConsoleMode() except pywintypes.error as e: if e.winerror == winerror.ERROR_INVALID_HANDLE: # Standard output is not a console. return False raise try: # From . This would be # win32console.ENABLE_VIRTUAL_TERMINAL_PROCESSING, but it’s too new to # be defined there. ENABLE_VIRTUAL_TERMINAL_PROCESSING = 0x0004 stdout_console.SetConsoleMode(console_mode | ENABLE_VIRTUAL_TERMINAL_PROCESSING) except pywintypes.error as e: if e.winerror == winerror.ERROR_INVALID_PARAMETER: # ANSI/VT100-style escape sequence processing isn’t supported before # Windows 10. return False raise return True def _RunOnAndroidTarget(binary_dir, test, android_device, extra_command_line): local_test_path = os.path.join(binary_dir, test) MAYBE_UNSUPPORTED_TESTS = ( 'crashpad_client_test', 'crashpad_handler_test', 'crashpad_minidump_test', 'crashpad_snapshot_test', ) if not os.path.exists(local_test_path) and test in MAYBE_UNSUPPORTED_TESTS: print('This test is not present and may not be supported, skipping') return def _adb(*args): # Flush all of this script’s own buffered stdout output before running # adb, which will likely produce its own output on stdout. sys.stdout.flush() adb_command = ['adb', '-s', android_device] adb_command.extend(args) subprocess.check_call(adb_command, shell=IS_WINDOWS_HOST) def _adb_push(sources, destination): args = list(sources) args.append(destination) _adb('push', *args) def _adb_shell(command_args, env={}): # Build a command to execute via “sh -c” instead of invoking it # directly. Here’s why: # # /system/bin/env isn’t normally present prior to Android 6.0 (M), where # toybox was introduced (Android platform/manifest 9a2c01e8450b). # Instead, set environment variables by using the shell’s internal # “export” command. # # adbd prior to Android 7.0 (N), and the adb client prior to SDK # platform-tools version 24, don’t know how to communicate a shell # command’s exit status. This was added in Android platform/system/core # 606835ae5c4b). With older adb servers and clients, adb will “exit 0” # indicating success even if the command failed on the device. This # makes subprocess.check_call() semantics difficult to implement # directly. As a workaround, have the device send the command’s exit # status over stdout and pick it back up in this function. # # Both workarounds are implemented by giving the device a simple script, # which adbd will run as an “sh -c” argument. adb_command = ['adb', '-s', android_device, 'shell'] script_commands = [] for k, v in env.items(): script_commands.append('export %s=%s' % (pipes.quote(k), pipes.quote(v))) script_commands.extend([ ' '.join(pipes.quote(x) for x in command_args), 'status=${?}', 'echo "status=${status}"', 'exit ${status}' ]) adb_command.append('; '.join(script_commands)) child = subprocess.Popen(adb_command, shell=IS_WINDOWS_HOST, stdin=open(os.devnull), stdout=subprocess.PIPE, text=True) FINAL_LINE_RE = re.compile('status=(\d+)$') final_line = None while True: # Use readline so that the test output appears “live” when running. data = child.stdout.readline() if data == '': break if final_line is not None: # It wasn’t really the final line. print(final_line, end='') final_line = None if FINAL_LINE_RE.match(data.rstrip()): final_line = data else: print(data, end='') if final_line is None: # Maybe there was some stderr output after the end of stdout. Old # versions of adb, prior to when the exit status could be # communicated, smush the two together. raise subprocess.CalledProcessError(-1, adb_command) status = int(FINAL_LINE_RE.match(final_line.rstrip()).group(1)) if status != 0: raise subprocess.CalledProcessError(status, adb_command) child.wait() if child.returncode != 0: raise subprocess.CalledProcessError(subprocess.returncode, adb_command) # /system/bin/mktemp isn’t normally present prior to Android 6.0 (M), where # toybox was introduced (Android platform/manifest 9a2c01e8450b). Fake it # with a host-generated name. This won’t retry if the name is in use, but # with 122 bits of randomness, it should be OK. This uses “mkdir” instead of # “mkdir -p”because the latter will not indicate failure if the directory # already exists. device_temp_dir = '/data/local/tmp/%s.%s' % (test, uuid.uuid4().hex) _adb_shell(['mkdir', device_temp_dir]) try: # Specify test dependencies that must be pushed to the device. This # could be determined automatically in a GN build, following the example # used for Fuchsia. Since nothing like that exists for GYP, hard-code it # for supported tests. test_build_artifacts = [test, 'crashpad_handler'] test_data = ['test/test_paths_test_data_root.txt'] if test == 'crashpad_test_test': test_build_artifacts.append( 'crashpad_test_test_multiprocess_exec_test_child') elif test == 'crashpad_util_test': test_data.append('util/net/testdata/') # Establish the directory structure on the device. device_out_dir = posixpath.join(device_temp_dir, 'out') device_mkdirs = [device_out_dir] for source_path in test_data: # A trailing slash could reasonably mean to copy an entire # directory, but will interfere with what’s needed from the path # split. All parent directories of any source_path need to be be # represented in device_mkdirs, but it’s important that no # source_path itself wind up in device_mkdirs, even if source_path # names a directory, because that would cause the “adb push” of the # directory below to behave incorrectly. if source_path.endswith(posixpath.sep): source_path = source_path[:-1] device_source_path = posixpath.join(device_temp_dir, source_path) device_mkdir = posixpath.split(device_source_path)[0] if device_mkdir not in device_mkdirs: device_mkdirs.append(device_mkdir) adb_mkdir_command = ['mkdir', '-p'] adb_mkdir_command.extend(device_mkdirs) _adb_shell(adb_mkdir_command) # Push the test binary and any other build output to the device. local_test_build_artifacts = [] for artifact in test_build_artifacts: local_test_build_artifacts.append(os.path.join( binary_dir, artifact)) _adb_push(local_test_build_artifacts, device_out_dir) # Push test data to the device. for source_path in test_data: _adb_push([os.path.join(CRASHPAD_DIR, source_path)], posixpath.join(device_temp_dir, source_path)) # Run the test on the device. Pass the test data root in the # environment. # # Because the test will not run with its standard output attached to a # pseudo-terminal device, Google Test will not normally enable colored # output, so mimic Google Test’s own logic for deciding whether to # enable color by checking this script’s own standard output connection. # The list of TERM values comes from Google Test’s # googletest/src/gtest.cc testing::internal::ShouldUseColor(). env = {'CRASHPAD_TEST_DATA_ROOT': device_temp_dir} gtest_color = os.environ.get('GTEST_COLOR') if gtest_color in ('auto', None): if (sys.stdout.isatty() and (os.environ.get('TERM') in ('xterm', 'xterm-color', 'xterm-256color', 'screen', 'screen-256color', 'tmux', 'tmux-256color', 'rxvt-unicode', 'rxvt-unicode-256color', 'linux', 'cygwin') or (IS_WINDOWS_HOST and _EnableVTProcessingOnWindowsConsole()))): gtest_color = 'yes' else: gtest_color = 'no' env['GTEST_COLOR'] = gtest_color _adb_shell([posixpath.join(device_out_dir, test)] + extra_command_line, env) finally: _adb_shell(['rm', '-rf', device_temp_dir]) def _RunOnIOSTarget(binary_dir, test, is_xcuitest=False, gtest_filter=None): """Runs the given iOS |test| app on a simulator with the default OS version.""" def xctest(binary_dir, test, gtest_filter=None): """Returns a dict containing the xctestrun data needed to run an XCTest-based test app.""" test_path = os.path.join(CRASHPAD_DIR, binary_dir) module_data = { 'TestBundlePath': os.path.join(test_path, test + '_module.xctest'), 'TestHostPath': os.path.join(test_path, test + '.app'), 'TestingEnvironmentVariables': { 'DYLD_FRAMEWORK_PATH': '__TESTROOT__/Debug-iphonesimulator:', 'DYLD_INSERT_LIBRARIES': ('__PLATFORMS__/iPhoneSimulator.platform/Developer/' 'usr/lib/libXCTestBundleInject.dylib'), 'DYLD_LIBRARY_PATH': '__TESTROOT__/Debug-iphonesimulator', 'IDEiPhoneInternalTestBundleName': test + '.app', 'XCInjectBundleInto': '__TESTHOST__/' + test, } } if gtest_filter: module_data['CommandLineArguments'] = ['--gtest_filter='+gtest_filter] return {test: module_data} def xcuitest(binary_dir, test): """Returns a dict containing the xctestrun data needed to run an XCUITest-based test app.""" test_path = os.path.join(CRASHPAD_DIR, binary_dir) runner_path = os.path.join(test_path, test + '_module-Runner.app') bundle_path = os.path.join(runner_path, 'PlugIns', test + '_module.xctest') target_app_path = os.path.join(test_path, test + '.app') module_data = { 'IsUITestBundle': True, 'IsXCTRunnerHostedTestBundle': True, 'TestBundlePath': bundle_path, 'TestHostPath': runner_path, 'UITargetAppPath': target_app_path, 'DependentProductPaths': [ bundle_path, runner_path, target_app_path ], 'TestingEnvironmentVariables': { 'DYLD_FRAMEWORK_PATH': '__TESTROOT__/Debug-iphonesimulator:', 'DYLD_INSERT_LIBRARIES': ('__PLATFORMS__/iPhoneSimulator.platform/Developer/' 'usr/lib/libXCTestBundleInject.dylib'), 'DYLD_LIBRARY_PATH': '__TESTROOT__/Debug-iphonesimulator', 'XCInjectBundleInto': '__TESTHOST__/' + test + '_module-Runner', }, } return {test: module_data} with tempfile.NamedTemporaryFile() as f: import plistlib xctestrun_path = f.name + ".xctestrun" print(xctestrun_path) command = [ 'xcodebuild', 'test-without-building', '-xctestrun', xctestrun_path, '-destination', 'platform=iOS Simulator,OS=15.5,name=iPhone 13', ] with open(xctestrun_path, 'wb') as fp: if is_xcuitest: plistlib.dump(xcuitest(binary_dir, test), fp) if gtest_filter: command.append('-only-testing:' + test + '/' + gtest_filter) else: plistlib.dump(xctest(binary_dir, test, gtest_filter), fp) subprocess.check_call(command) # This script is primarily used from the waterfall so that the list of tests # that are run is maintained in-tree, rather than in a separate infrastructure # location in the recipe. def main(args): parser = argparse.ArgumentParser(description='Run Crashpad unittests.') parser.add_argument('binary_dir', help='Root of build dir') parser.add_argument('test', nargs='*', help='Specific test(s) to run.') parser.add_argument( '--gtest_filter', help='Google Test filter applied to Google Test binary runs.') args = parser.parse_args() # Tell 64-bit Windows tests where to find 32-bit test executables, for # cross-bitted testing. This relies on the fact that the GYP build by # default uses {Debug,Release} for the 32-bit build and {Debug,Release}_x64 # for the 64-bit build. This is not a universally valid assumption, and if # it’s not met, 64-bit tests that require 32-bit build output will disable # themselves dynamically. if (sys.platform == 'win32' and args.binary_dir.endswith('_x64') and 'CRASHPAD_TEST_32_BIT_OUTPUT' not in os.environ): binary_dir_32 = args.binary_dir[:-4] if os.path.isdir(binary_dir_32): os.environ['CRASHPAD_TEST_32_BIT_OUTPUT'] = binary_dir_32 target_os = _BinaryDirTargetOS(args.binary_dir) is_android = target_os == 'android' is_ios = target_os == 'ios' tests = [ 'crashpad_client_test', 'crashpad_handler_test', 'crashpad_minidump_test', 'crashpad_snapshot_test', 'crashpad_test_test', 'crashpad_util_test', ] if is_android: android_device = os.environ.get('ANDROID_DEVICE') if not android_device: adb_devices = subprocess.check_output(['adb', 'devices'], shell=IS_WINDOWS_HOST, text=True) devices = [] for line in adb_devices.splitlines(): line = line if (line == 'List of devices attached' or re.match('^\* daemon .+ \*$', line) or line == ''): continue (device, ignore) = line.split('\t') devices.append(device) if len(devices) != 1: print("Please set ANDROID_DEVICE to your device's id", file=sys.stderr) return 2 android_device = devices[0] print('Using autodetected Android device:', android_device) elif is_ios: tests.append('ios_crash_xcuitests') elif IS_WINDOWS_HOST: tests.append('snapshot/win/end_to_end_test.py') if args.test: for t in args.test: if t not in tests: print('Unrecognized test:', t, file=sys.stderr) return 3 tests = args.test for test in tests: print('-' * 80) print(test) print('-' * 80) if test.endswith('.py'): subprocess.check_call([ sys.executable, os.path.join(CRASHPAD_DIR, test), args.binary_dir ]) else: extra_command_line = [] if args.gtest_filter: extra_command_line.append('--gtest_filter=' + args.gtest_filter) if is_android: _RunOnAndroidTarget(args.binary_dir, test, android_device, extra_command_line) elif is_ios: _RunOnIOSTarget(args.binary_dir, test, is_xcuitest=test.startswith('ios'), gtest_filter=args.gtest_filter) else: subprocess.check_call([os.path.join(args.binary_dir, test)] + extra_command_line) return 0 if __name__ == '__main__': sys.exit(main(sys.argv[1:]))